Interventional cardiology procedures (ICPs), while providing important benefits to
patients, also contribute to their radiation exposure, in particular for the organs
surrounding the heart. This paper addresses the issue of radiation exposure to the lung
and bone marrow related to coronary interventions in terms of organ doses for coronary
angiography (CA) and percutaneous transluminal coronary angioplasty (PTCA), and risk
assessment of potential radiation-induced cancer. Dosimetric information on 2095 ICPs from
French patients was collected. The median lung dose for CA alone was 34 mGy for men and 22
mGy for women and the median bone marrow dose was 8 mGy and 4 mGy, respectively; doses
were slightly higher for CA and ad hoc PTCA and nearly twice as high for
CA and elective PTCA. Based on the French national mortality registry and Biological
Effects of Ionising Radiation VII models, spontaneous and radiation-induced lung cancers
and leukaemia were estimated. For men and women aged at least 60 years old at the first
ICP, excess risk of potentially fatal cancers attributable to radiation ranged from 0.4%
to 4%. This study provides evidence of the potential risk of radiation-induced cancer
after an ICP. The limitations of such calculations are due to the difficulty of taking
into account patients’ possibly shorter life expectancy than in the general population,
linked to their comorbidities and coronary disease. Nevertheless, risk estimates can be
used to illustrate the beneficial role of optimisation of doses delivered to the
patient.